Design Guide B-.. BASEMENT WALLS There are three options for using Armopanel system in low-rise residential buildings. The summaries of these three options are presented in basement wall tables below. ) Armopanel basement wall supporting one-storey wood framing, ) Armopanel basement wall supporting two-storey: a. The first storey concrete floor, and b. The second storey wood framing. ) Armopanel basement wall supporting two-storey: a. The first storey concrete floor, b. The second storey concrete floor, concrete wall and roof. The tables below are based on Prescriptive Method for insulating concrete forms in residential construction. Second Edition, January 00. [] This tables are to be used for low-rise residential buildings only. Placement of reinforcement shall be in accordance with the local standards, regulations, or code having jurisdiction. In Canada, the placement of reinforcing steel shall conform to CSA A.; design requirements must be in accordance with CSA A., the latest addition. In the US, the placement and design of reinforcing steel must be in conformance with ACI, or ACI, or the 000 International Residential Code. Alternatively, some areas have adopted the Standard Building Code, or Prescriptive Method for Insulating Concrete Forms in Residential Construction. Distances between rebars and rebar sizes have been modified in accordance with Armopanel Wall System and Canadian rebars designation and are to be used only within the assumptions and restrictions laid out in that document. These tables are to be superseded by the local building code or original engineering performed for the specific construction project. Each table of the below grade walls includes reinforcement for all the above conditions. The design criteria assumed for each of these three construction conditions are shown in this section. The basement wall tables reflect the reinforcement required for the specified conditions, only. Any other conditions are not covered by the tables below and require special attention from the structural engineer of the specific project. Specific project information and design criteria should be used to properly design the wall. Deflection criteria is L/0, where L is the height of the wall storey. The tables have data intended to help the Engineer/Contractor quickly determine the required basement wall thickness and appropriate reinforcement for basement walls with thickness of 0mm to 0mm (. -. ) based on horizontal soil pressure and the wall height. The horizontal load from the soil pressure from the backfill has been changed to the equivalent load from the water pressure. The section Detailed Drawing describes the details of the basement walls and intends to help the Designer in developing the specific project with Armopanel.
Design Guide Equivalent Fluid* Density Soil Classification** Maximum Equivalent Fluid Density kg/m ( pcf ) UCS ( 0 ) GW, GP, SW, SP, GM ( ) GC, SM ( 0 ) UCS Uniform Soil Classification SC, MN, CL, CH, ML-CL Soil Description Table B... Well-drained, cohesionless soil such as clean ( few or no fines) sand and gravels Well-drained, cohesionless soil such as sand and gravels containing silt or clay Well-drained, inorganic silts and clays that are broken up into small pieces * Equivalent Fluid Density - The mass of a soil per unit volume treated as a fluid mass for the purpose of determining lateral design loads produced by the soil on an adjacent structure such as a basement wall. ** Taken from Table C. [] Table B-..* Minimum Horizontal Reinforcement for Flat ICF Above-Grade Walls Maximum Height of Basement Wall Location of Horizontal Reinforcement ( feet. ) One No bar within inches of top of the wall story, and one No bar near mid-height of wall story One No bar within inches of top of the wall story, and one No bar near third points in the wall story 0 One No bar within inches of top of the wall story, and one No bar near third points in the wall story Horizontal reinforcement requirements minimum yield strength of 0,000 psi Concrete compressive strength,00 psi * Taken from Table. [] Table B-..* Minimum Horizontal Reinforcement for Flat ICF Above-Grade Walls Maximum Height of Wall Storey Location of Horizontal Reinforcement ( metre ) One M bar within 00 mm of top of the wall story, and one M bar near midheight of wall story. One M bar within 00 mm of top of the wall story, and one M bar near third points in the wall story.0 One M bar within 00 mm inches of top of the wall story, and one M bar near third points in the wall story Horizontal reinforcement requirements minimum yield strength of 00 MPa Concrete compressive strength 0 MPa * Table is based on Table. []
0 Design Guide Table B-...* 0-mm- THICK FLAT ICF BASEMENT WALLS,,,,,, (metre).0 (metre). kn/m³. kn/m³. kn/m³. 0M@00 0M@00 0M@00. 0M@00 M@00. 0M@00 ; 0M@00 ; M@00 0M@00 ; 0M@00 ; 0M@00 ; M@00. 0M@00 0M@00 0M@00. 0M@000 M@00. ; M@00 ; ; M@00 0M@00;. 0M@00 0M@00 0M@00. 0M@000 M@00. M@00 0M@00 0M@00 0M@00 M@00 0M@00 0M@00 Table values are based on reinforcing bars with a minimum yield strength of 00 MPa and concrete with a minimum specified compressive strength of 0 MPa Reinforcement shall not be less than one 0M bar at 00 mm on center. Deflection criterion is L/0, where L is the height of the basement wall in inches. Vertical reinforcement should be placed within middle third of the concrete wall * Table is based on Тable. []
Design Guide Table B-...*.-inch- THICK FLAT ICF BASEMENT WALLS,,,,, 0 0 pcf pcf 0 pcf #@ #@ #@ #@ #@ ; #@ ; #@ ; #@ ; #@0 #@ ; #@ #@ ; #@ ; #@ ; #@ ; #@ ; #@0 #@ ; #@ #@ ; #@ #@ ; #@ ; #@ ; #@ #@ ; #@ #@ ; #@ #@ #@ #@ #@ #@ ; #@ ; #@ ; #@ #@ ; #@ #@ #@ ; #@ ; #@ ; #@ #@ ; #@ #@ #@ #@ ; #@ ; #@ ; #@ #@ ; #@ #@ #@ ; #@ #@ #@ #@ #@ #@ #@ ; #@ ; #@ ; #@ ; #@ ; #@ #@ #@ ; #@ ; #@ ; #@ ; #@ #@ ; #@ #@ ; #@ #@ ; #@ ; #@ #@ #@ #@ #@ #@ #@ #@ #@ #@ Table values are based on reinforcing bars with a minimum yield strength of 0,000 psi ( MPa) and concrete with a minimum specified compressive strength of,0 psi (0 MPa). Spacing of rebar shall be permitted to be multiplied by. when reinforcing steel with a minimum yield strength of 0,000 psi ( MPa) is used. Reinforcement shall not be less than one # bar at inches (. m) on center. Deflection criterion is L/0, where L is the height of the basement wall in inches. Vertical reinforcement should be placed within middle third of the concrete wall. * Table is based on Тable. []
Design Guide Table B-...* 00-mm- THICK FLAT ICF BASEMENT WALLS,,,,,.0. kn/m³. kn/m³. kn/m³... M@00... M@00 M@00 0M@00 M@00 ; ;... M@00 M@00 ; M@00 M@00 0M@00 Table values are based on reinforcing bars with a minimum yield strength of 00 MPa and concrete with a minimum specified compressive strength of 0 MPa Reinforcement shall not be less than one 0M bar at 00 mm on center. Deflection criterion is L/0, where L is the height of the basement wall in inches. Vertical reinforcement should be placed on the tension side of the wall and shall be covered by 0 mm thick concrete. If wall is bearing pure axial load the reinforcement must be placed in the middle third of the wall. * Table is based on Тable. []
Design Guide Table B-...*.-inch- THICK FLAT ICF BASEMENT WALLS,..., (feet) 0 (feet) 0 pcf pcf 0 pcf #@ ; #@ ; #@ ; #@ ; #@ #@ ; #@ #@ ; #@ ; #@ ; #@ #@ ; #@ ; #@ ; #@ #@ ; #@ #@ ; #@ ; #@ ; #@ ; #@ #@ ; #@ #@ ; #@ #@ ; #@ ; #@ #@ ; #@ ; #@ ; #@ #@ ; #@ #@ ; #@ ; #@ ; #@ #@ ; #@ #@ ; #@ #@ ; #@ ; #@ #@ ; #@ #@ Table values are based on reinforcing bars with a minimum yield strength of 0,000 psi ( MPa) and concrete with a minimum specified compressive strength of,0 psi (0 MPa). Spacing of rebar shall be permitted to be multiplied by. when reinforcing steel with a minimum yield strength of 0,000 psi ( MPa) is used. Reinforcement shall not be less than one # bar at inches (. m) on center. Deflection criterion is L/0, where L is the height of the basement wall in inches. Vertical reinforcement should be placed on the tension side of the wall and shall be covered by ½ thick concrete. If wall is bearing pure axial load the reinforcement must be placed in the middle third of the wall. * Table is based on Тable. []
Design Guide Table B-...* 0-mm- THICK FLAT ICF BASEMENT WALLS,,,,,.0. kn/m³. kn/m³. kn/m³...... M@00 M@00... M@00 M@00 Table values are based on reinforcing bars with a minimum yield strength of 00 MPa and concrete with a minimum specified compressive strength of 0 MPa. Reinforcement shall not be less than one 0M bar at 00 mm on center. Deflection criterion is L/0, where L is the height of the basement wall in inches. Vertical reinforcement should be placed on the tension side of the wall and shall be covered by 0 mm thick concrete. If wall is bearing pure axial load the reinforcement must be placed in the middle third of the wall. * Table is based on Тable. []
Design Guide Table B-...*.-inch- THICK FLAT ICF BASEMENT WALLS,..., (feet) 0 (feet) 0 pcf pcf 0 pcf #@ ; #@ ; #@ #@ ; #@ ; #@ #@ ; #@ #@ ; #@ ; #@ #@ ; #@ ; #@ #@ ; #@ ; #@ #@ ; #@ #@ ; #@ #@ Table values are based on reinforcing bars with a minimum yield strength of 0,000 psi ( MPa) and concrete with a minimum specified compressive strength of,0 psi (0 MPa). Spacing of rebar shall be permitted to be multiplied by. when reinforcing steel with a minimum yield strength of 0,000 psi ( MPa) is used. Reinforcement shall not be less than one # bar at inches (. m) on center. Deflection criterion is L/0, where L is the height of the basement wall in inches. Vertical reinforcement should be placed on the tension of the wall and shall be covered by ½ thick concrete. If wall is bearing pure axial load the reinforcement must be placed in the middle third of the wall. * Table is based on Тable. []